Aqueous solution of chromium salt and method for producing same

a technology of chromium salt and water solution, which is applied in the direction of lithium compounds, solid-state diffusion coatings, other chemical processes, etc., can solve the problems of nox generation, inability to remove impurities such as sodium and sulfate salts, and difficulty in water washing of precipitates

Inactive Publication Date: 2007-04-19
NIPPON CHECMICAL IND CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011] Accordingly, it is an object of the present invention to provide an aqueous solution of a chromium salt and a met...

Problems solved by technology

Among known methods, in the method in which chromium hydroxide is dissolved in nitric acid, it is very difficult to perform water washing of the precipitate of chromium hydroxide produced by adding caustic soda or soda ash to chromium sulfate, and it is not possible to remove impurities, such as sodi...

Method used

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Examples

Experimental program
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Effect test

example 1-1

[0065] To a glass reactor equipped with a condenser, 251.6 g of water was fed and 253.1 g of chromium trioxide was further added thereto, followed by thorough stirring for dissolution, to prepare a 50% aqueous solution of chromic acid. Methanol was used as a reducing agent. In the first stage of reaction, a 20% aqueous solution of methanol prepared by adding 48.4 g of water to 12.2 g of 99.5% methanol was added to the aqueous solution of chromic acid using a metering pump at a rate of 1.0 g / min. This rate of addition allows 60.6 g of the 20% aqueous solution of methanol to be added in about one hour. Also note that 12.2 g of 99.5% methanol corresponds to a volume that reduces 30% of the chromic acid.

[0066] After the addition of the reducing agent was completed in the first stage, 817.9 g of a mixed solution of 28.4 g of 99.5% methanol and 789.5 g of 35% hydrochloric acid was added thereto at a rate of 6.8 g / min. This rate of addition allows 817.9 g of the mixed solution of methanol...

example 1-2

[0068] To a glass reactor equipped with a condenser, 420.6 g of a 60% aqueous solution of chromic acid and 84.1 g of water were fed, followed by thorough stirring, to prepare a 50% aqueous solution of chromic acid. Ethylene glycol was used as a reducing agent. In the first stage of reaction, a 20% aqueous solution of ethylene glycol prepared by adding 56.2 g of water to 14.3 g of 98.5% ethylene glycol was added to the aqueous solution of chromic acid using a metering pump at a rate of 1.2 g / min. This rate of addition allows 70.5 g of the 20% aqueous solution of ethylene glycol to be added in about one hour. Also note that 14.3 g of 98.5% ethylene glycol corresponds to a volume that reduces 30% of the chromic acid.

[0069] After the addition of the reducing agent was completed in the first stage, 822.9 g of a mixed solution of 33.4 g of 98.5% ethylene glycol and 789.5 g of 35% hydrochloric acid was added thereto at a rate of 6.9 g / min. This rate of addition allows 822.9 g of the mixed...

example 1-3

[0070] To a glass reactor equipped with a condenser, 420.6 g of a liquid chromic acid 60% solution and 151.1 g of water were fed, followed by thorough stirring, to prepare a 44% aqueous solution of chromic acid. As a reducing agent, 99.5% methanol was used. In the first stage of reaction, a 20% aqueous solution of methanol prepared by adding 48.4 g of water to 12.2 g of 99.5% methanol was added to the aqueous solution of chromic acid using a metering pump at a rate of 1.0 g / min. This rate of addition allows 60.6 g of the 20% aqueous solution of methanol to be added in about one hour. Also note that 12.2 g of 99.5% methanol corresponds to a volume that reduces 30% of the chromic acid.

[0071] After the addition of the reducing agent was completed in the first stage, 423.2 g of a mixed solution of 28.4 g of 99.5% methanol and 394.8 g of 35% hydrochloric acid was added thereto at a rate of 3.5 g / min. This rate of addition allows 423.2 g of the mixed solution of methanol and hydrochloric...

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Abstract

Disclosed is an aqueous solution of a chromium salt, in which the oxalic acid content is 8% by weight or less relative to chromium. In the aqueous solution of the chromium salt, the total organic carbon content is 4% by weight or less relative to chromium. The chromium salt is preferably a chromium chloride, a chromium phosphate, or a chromium nitrate. The chromium chloride preferably contains a basic chromium chloride represented by the composition formula Cr(OH)xCly (wherein 0<x≦2, 1≦y<3, and x+y=3). The chromium phosphate is preferably one represented by the composition formula Cr(H3−3/nPO4)n (wherein n is a number satisfying 2≦n≦3). The chromium nitrate is preferably a basic chromium nitrate represented by the composition formula Cr(OH)x(NO3)y (wherein 0<x≦2, 1≦y<3, and x+y=3).

Description

TECHNICAL FIELD [0001] The present invention relates to an aqueous solution of a chromium salt and a method for producing the same. BACKGROUND ART [0002] Among various aqueous solutions of chromium salts, aqueous solutions of chromium nitrate are known to be used as surface treatment agents for metals. Aqueous solutions of chromium phosphate are used as treatment solutions for forming chemical conversion coatings on zinc-plated surfaces of various metals, such as iron, nickel, and copper (refer to Patent Document 1). [0003] In a known method for producing a chromium salt, such as chromium nitrate, chromium phosphate, or chromium chloride, ore is subjected to alkali oxidizing roasting to prepare a sodium dichromate solution, sulfuric acid is added to the sodium dichromate solution, which is then subsequently reduced with an organic substance to produce a chromium sulfate solution, caustic soda or soda ash is added thereto to form a precipitate of chromium hydroxide or chromium carbon...

Claims

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Application Information

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IPC IPC(8): C01B21/48C01G37/00C01G37/14C23C22/46C23C22/47
CPCC01G37/00C01G37/14C23C2222/10C23C22/47C23C22/46C01G37/04C01B25/37
Inventor KOTAKI, HIDEKIBANDA, TOMOHIROHARA, TAKASHITAKAGI, NOBUO
Owner NIPPON CHECMICAL IND CO LTD
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